Dosing
Long-acting, triple-bead MAS is available in 12.5-, 25-, 37.5-, and 50-mg capsules. The capsule may be opened and sprinkled in food for patients who cannot swallow capsules. Opening of the capsule results in similar absorption relative to oral administration of the intact capsule.3
In adults with ADHD, long-acting, triple-bead MAS should be initiated at 12.5 mg in the morning (Table 2). However, in some individuals, long-acting, triple-bead MAS may be initiated at 25 mg each morning. Titration should occur in 12.5-mg weekly increments to a maximum dosage of 50 mg/d.3
In adults with severe renal impairment (glomerular filtrate rate, 15 to 30 mL/min/1.73 m2), the recommended starting dose is 12.5 mg/d, with a maximum dosage of 25 mg/d.3
The efficacy of long-acting, triple-bead MAS in adults with ADHD was demonstrated in 3 studies involving adults ages 18 to 55, and the effectiveness of the medication, with regard to duration of action, was assessed using the Time-Sensitive ADHD Symptom Scale—a self-report scale that consists of items indexed by the ADHD Rating Scale-IV (ADHD-RS-IV) which assesses ADHD symptom severity. Doses up to 75 mg/d were studied; however, there were no significant effects. It should be noted that this maximum daily dose was not determined by any safety parameter.
Study 1 (dose-optimization, triple-bead MAS, n = 137; placebo, n = 135, dosing: 12.5 to 75 mg) and Study 2 (forced dose-titration study, triple-bead MAS, n = 308; placebo, n = 104, dosing: 25 mg, 50 mg, 75 mg) demonstrated efficacy of triple-bead MAS for treating ADHD in adults. Despite differences in study designs, statistically significant and similar clinically relevant improvement was observed with triple-bead MAS (vs placebo) on ADHD-RS-IV total scores in both Study 1 and Study 2.8 An additional study in adults ages 18 to 55 (N = 275) with ADHD (DSM-5 criteria) involved randomization to either 12.5 mg (fixed dose) or forced titration (12.5 to 37.5 mg) or placebo and, as with the first 2 studies, improvement in ADHD symptoms was observed in triple-bead MAS-treated patients relative to those who had received placebo. (See Reference 3 for a summary of the clinical trials of triple-bead MAS in adults with ADHD.)
The tolerability of this medication was evaluated in a 12-month open-label study of adults with ADHD (DSM-IV-TR criteria) in which discontinuation was higher at doses >25 mg/d.7 Treatment-related increases in blood pressure and heart rate were consistent with the known hemodynamic adverse effect profile of stimulants.9
In adolescents with ADHD ages 13 to 17, long-acting, triple-bead MAS should be initiated at 12.5 mg/d and may be increased to 25 mg/d (Table 2). Importantly, in younger patients, including those younger than age 12, triple-bead MAS was associated with an increased risk of adverse events including insomnia and anorexia, and this was thought to be related to increased drug exposure (ie, AUC).
The efficacy of long-acting, triple-bead MAS was evaluated in 2 studies of adolescents ages 13 to 17, including 1 fixed-dose trial (25 mg/d) and 1 flexibly-dosed trial (12.5 to 25 mg/d). These unpublished studies utilized the ADHD-RS-IV score and the Average Permanent Product Measure of Performance, an age-adjusted math test and measure of sustained attention, and revealed statistically significant differences between medication and placebo in the primary outcomes.3
Adverse effects
Long-acting, triple-bead MAS was developed to treat ADHD symptoms throughout the day, and serum concentrations of the medication may be higher with this formulation compared with other long-acting preparations. Therefore, adverse effects that are directly related to plasma exposure (eg, insomnia and appetite suppression) may occur at higher rates with this preparation compared with alternatives. For example, in some of the registration trials, insomnia occurred in more than one-third of patients receiving the active medication (38%).9 Although insomnia was the most frequently reported adverse event in adults with ADHD, most reports of insomnia occurred early in the course of treatment. Of these insomnia-related adverse events, 94% were mild to moderate and resulted in discontinuation of the medication in approximately 2% of patients. Further, 73.9% of treatment-emergent, insomnia–related adverse events resolved during the course of the study. It is also important to note that the Pittsburgh Sleep Quality Index did not differ from placebo in studies of triple-bead MAS in adults with ADHD.10 Similarly, rates of stimulant-induced appetite suppression may be higher with this preparation compared with other long-acting preparations.9
Adverse effects observed in adults with ADHD that occurred in ≥2% of patients receiving triple-bead MAS and at least twice the incidence in patients randomized to placebo included:
- anxiety (7% vs 3%)
- feeling jittery (2% vs 1%)
- agitation (2% vs 0%)
- insomnia (31% vs 8%)
- depression (3% vs 0%)
- decreased appetite (30% vs 4%)
- weight loss (9% vs 0%)
- xerostomia (23% vs 4%)
- diarrhea (3% vs 0%)
- increased heart rate (9% vs 0%)
- palpitations (4% vs 2%)
- dysmenorrhea (4% vs 2%)
- erectile dysfunction (2% vs 1%).
In adolescents receiving triple-bead MAS, the most common adverse effects included decreased appetite, nausea, insomnia, abdominal pain, irritability, and weight loss.9